Articulated vertebral fixing

ABSTRACT

A vertebral fixing is disclosed for fixing a support structure to vertebrae in a spine during therapeutic surgery. The vertebral fixing has a screw or hook ( 1 ) by means of which it is secured to the vertebrae. An elongate threaded rod ( 2 ) extends from the screw or hook ( 1 ) to which it is coupled by means of an articulated coupling ( 5 ). A connector ( 3 ) is provided to mount onto the rod ( 2 ) whereby the vertebral fixing can be connected to a support shaft

The present invention is concerned with a vertebral fixing for use in a spinal fixation system. Vertebral fixings in the form of screws and hooks are used in spinal surgery to secure the elements of the spine to a support structure, such as a shaft, for the purpose of encouraging the spine to heal.

Conventional spinal fixings consist of a fixing part ordinarily provided by a screw or hook which can be fixed to the vertebrae. The projecting end of the screw or hook is in the form of a rigid threaded rod extension. A connector is provided for connecting the screw to a shaft. Commonly the connector consists of a collar which slips over the extension and is retained by a nut threaded on to the extension. The connector is also provided with a sleeve, or means to form a sleeve which envelopes and grips a part of the shaft. The shaft in turn will extend over some part of the length of the spine and be connected to several screws. In the course of treatment the nuts are tightened to provide support and/or corrective forces to the spine in order to promote healing.

It is a problem to connect the connectors to the rod because the screws must be located where the vertebrae are able to sustain the loads to be imposed on them and such sites are severely limited, particularly in view of the conditions being treated. In an effort to alleviate this problem connectors have been designed which have a degree of articulation. However, such connectors have been found to be unsatisfactory in that the forces applied when tightening the nut are misdirected and so inclined to pull the screw or hook from the vertebrae.

In an effort to alleviate the aforementioned problems the present invention provides a vertebral fixing having;

a fixing part and an elongate extension extending from the fixing part to which a connector can be connected, said extension being adapted so that the distance from the connector to the fixing part can be controlled and,

an articulated coupling whereby the extension part is coupled to the fixing part.

Vertebral fixings constructed in accordance with the present invention will now be described, by way of example only, with reference to the accompanying figures, wherein:

FIG. 1A is a side elevation of a first embodiment,

FIG. 1B is a side elevation of the first embodiment at 90 degrees, with a connector attached,

FIG. 1C shows a connector,

FIG. 2 is a perspective view of a second embodiment,

FIG. 3A is a perspective view of a third embodiment, with the extension part omitted for clarity,

FIG. 3B is a section on A-A through the third embodiment showing the extension,

FIG. 4 is a perspective view of a fourth embodiment.

The vertebral fixing of the first embodiment, shown in FIGS. 1A-C has a fixing part provided by a screw 1, an elongate extension provided by a rod 2 which is threaded to allow the position of a connector 3 to be accurately controlled on the rod by tightening a nut 11. The extension connects to the fixing part by means of an articulated coupling 5.

The articulated coupling 5 permits the extension 2 to pivot only about an axis perpendicular to the screw or extension axis. In practice any articulated coupling which provides this feature may be suitable. However, in the embodiment shown the coupling consists of a head part 6 formed integrally on the projecting end of the fastening, A slot 7 is formed extending down from the open top of the head along the axis and radially out to one side. The slot is sized to receive the rod 2 and its extension radially to the side of the head permits the rod 2 to pivot as indicated in ghost lines in FIG. 1 a. The rod is provided with a pin 8 which sits in a passage 9 formed perpendicular to the long axis of the screw 1 and so provides the necessary articulation. In the case of the screw the vertebral fixing is intended to project from the spine in a direction common to the axis of the screw and so the rod is capable of pivoting about an axis perpendicular to the intended direction of projection.

Although not shown in the figures, means is provided to prevent the pin from being displaced out of the passage. Such means may include deforming part of the head after insertion of the pin or providing a small projection on the periphery of the passage through which the pin snap engages.

In use the screw 1 is fastened into the vertebrae and twisted until the rod 2 can be inclined towards a support structure, which will commonly be a shaft extending over a substantial part of the length of the spine. The connector 3 is provided with an elongate slot 10 which sleeves over the rod 2 and is secured by means of a nut 11. In an end of the connector remote from the slot is formed a bore 11 extending substantially perpendicular to the through axis of the slot. The shaft which provides the support structure can relatively easily be received into the bore 11 and secured by means of a grub screw 12. When the spinal fixation system has been assembled, commonly by the incorporation of several vertebral fixings each connected to a common shaft, corrective or supportive forces can be applied to the vertebrae of the spine by tightening the nut 11 of each fixing assembly. Because of the articulation of the fixing the forces applied are more correctly directed to support the vertebrae and correct any spinal deformation than is possible with conventional fixings.

FIG. 2 shows a second embodiment of the invention having an articulated coupling 5 in principle similar to that of the first embodiment, so that similar components are identified by similar numerals. However, the fastening part is provided by a hook 1 a instead of a screw.

It may be noted that the slot 7 extends only partway throught the head 5 so that the head obstructs pivoting of the rod 2 to constrain it to pivot through an arc of only 90 degrees. The head may be adapted by the provision of projections or otherwise to constrain the range of pivoting of the rod 2.

FIG. 3 shows a third embodiment of the invention wherein the coupling 5 provides articulation about two axis. To achieve this the coupling 5 a is formed as a ball joint with the ball 13 formed on the rod 2 a. The ball end of the rod 2 a is received into a socket 14 extending into the head 6 so that the rod 2 a projects generally in the direction which the fastening is intended to project from the vertebrae through the slot 7 a. However, the slot 7 a is modified in that a funnel 15 is shaped into the open top of the slot 7 a to act as a limiter and permits the rod 2 a to articulate to a limited degree around two pivot axis through the ball 14.

Means is provided to prevent the ball 14 being displaced from the socket, for example, by deforming part of the head after assembly or by the provision of snap over projections on theperiphery of the socket.

In use a connector such as the connector 3 or other conventional connectors are connected to the rod 2 a in a manner similar to that described in detail in the first embodiment.

The fourth embodiment of the invention illustrated by FIG. 4 has a coupling identical to that of the second embodiment but the fastening part is provided by a screw 1.

It is likely that the different embodiments of the invention will be used together to form a vertebral fixing system because the different embodiments of the invention have particular advantages when used at particular locations. For example, hook fastenings are of particular use on the smaller vertebrae of the upper part of the spine, while screw fastenings are of advantage used at the lower larger vertebrae.

The head 5 of any embodiment may be given a shape to aid in the handling and insertion of the fixing part. In particular where the fixing part is a screw the head may have an external profile like that of a nut.

In the case of any of the embodiments the coupling, and hence the fixing part and the extension part, may be assembled after insertion of the fixing part. 

1. a vertebral fixing comprising a fixing part and an elongate extension extending from the fixing part to which a connector can be connected, said extension being adapted so that the distance from the connector to the fixing part can be controlled, and an articulated coupling whereby the extension part is coupled to the fixing part having an integral pivot pin or ball on the extension, wherein the articulated coupling comprises an integral head part on the fixing part, whereby the extension may be securely coupled to the head part of the fixing part solely by insertion of the pivot pin or ball of the extension into the head part.
 2. A vertebral fixing as claimed in claim 1 wherein, the head part of the fixing part has a slot extending down through an open top of the head part along the axis of the fixing part initially, the slot then extending outwardly to one side of the head part whereby the extension may be coupled to the head part of the fixing part by insertion of the pivot pin or ball part into the slot from the side of the head pad.
 3. A vertebral fixing as claimed in claim 1, wherein the fixing part comprises a hook.
 4. A vertebral fixing as claimed in claim 3, wherein the fixing part comprises a screw.
 5. A vertebral fixing as claimed in claim 1, wherein the extension has a ball to couple to the fixing part and a slot in the head part of the fixing part, and where the slot extends down from the open top of the head part, the slot is formed with a funnel-shape to serve as a limiter and permit the extension to articulate to a limited degree.
 6. A vertebral fixing as claimed in claim 1, wherein integral retention means are provided on the head part for retaining me pin or ball there within when installed.
 7. A vertebral fixing as claimed in claim 6, wherein the retention means comprises a small projection on the periphery of the slot.
 8. A vertebral fixing as claimed in claim 1, wherein the head part of the fixing part is formed as a block with an external profile like that of a nut to facilitate handling and insertion of the fixing part.
 9. A vertebral fixing according to claim 1, wherein the extension has a ball to couple to the fixing part.
 10. A fixing according to any of claim 1, wherein the extension has a pivot pin to couple to the fixing part.
 11. A vertebral fixing comprising a fixing part and an elongate extension extending from the fixing part to which a connector can be connected, said extension being adapted so that the distance from the connector to the fixing part can be controlled, and an articulated coupling whereby the extension part is coupled to the fixing part having an integral pivot pin or ball on the extension, wherein the articulated coupling comprises an integral head part on the fixing part, whereby the extension may be securely coupled to the head part of the fixing part solely by insertion of the pivot pin or ball of the extension into the head part, without use of a cuff or other separate securing component. 